吴其冈(Qigang Wu)


吴其冈

特聘教授/博士生导师

qigangwu@fudan.edu.cn

021-31248818



研究兴趣

1)全球气候变化利用统计和数值模拟结果比较人为辐射强迫和自然辐射强迫,及自然气候变率(AO, PNAENSO, IPO AMO等大气和海温模态)对全球及区域气候变化的不同影响,进而对全球和区域观测气候变化进行归因分析;

2)海冰-大气相互作用分析北极增温放大效应,北极海冰消融和南极海冰增加的成因;利用观测和模拟研究评估北极海冰减少对北半球中纬度天气气候的影响,及南半球海冰异常对南半球天气气候的影响;

3)积雪气候效应研究重点研究青藏高原积雪年代际变率成因,青藏高原积雪异常的全球气候效应;进行1979年后北半球积雪异常和趋势强迫产生的气候效应模拟试验,评估北半球积雪的长期气候效应;

4)海气相互作用:中纬度海气相互作用及其相关的季节气候预报,以及热带海洋-中高纬大气相互作用等方面研究。近期研究重点包括:热带印度洋增暖对大尺度大气环流及对东亚季风环流的影响;海温年代际变率IPO/PDOAMO的气候影响;不同强度ENSO的气候影响;

5)大气环流:关注北极涛动和太平洋北美遥相关等的动力学机制,及对长期气候变化影响;揭示下垫面强迫对这些大气环流主要变率模态的可预报性。


教育背景

学士学位(1985/09-1989/07),气象学,南京大学

硕士学位(1989/07-1992/09),气象学,南京大学

博士学位(1995/09-2000/05),大气科学,美国Texas A&M University


研究经历

1992/081995/08,技术员,中国农业科学院气象所

2000/012002/02Postdoctoral Research Associate, Texas A&M University, Dept. of Atmospheric Sciences

2002/032004/10Postdoctoral Scientist, Center for Ocean-Land-Atmosphere Studies

2004/112009/10Research Scientist, University of Oklahoma, School of Meteorology

2009/112010/02Visiting Scientist, University of Alaska Fairbanks, International Arctic Research Center

2010/052018/01, 教授,南京大学大气科学学院

2018/02—至今,教授,复旦大学大气与海洋科学系/大气科学研究院

  

承担课题

20111月—201312月,国家自然科学基金面上项目,研究秋季雪盖和北极海冰异常对冬季大气环流的影响及在季节气候预报中的应用,中国,50万,主持

20121月—201612月,国家重点基础研究发展计划项目,低纬度印太海盆增暖对我国季风气候的影响,中国,327万,主持

20191月—202212月,国家自然科学基金重大研究计划重点资助项目,青藏高原积雪年代际变率归因与全球气候效应研究,中国,298万,主持

  

教学经历

20129-201212月,气候变化,本科生,南京大学大气科学学院

20139-201312月,气候变化,本科生,南京大学大气科学学院

20149-201412月,气候变化,本科生,南京大学大气科学学院

20152-20157月,现代气候学基础,本科生,南京大学大气科学学院

20159-201512月,气候变化,本科生,南京大学大气科学学院

20162-20167月,现代气候学基础,本科生,南京大学大气科学学院

20169-201612月,气候变化,本科生,南京大学大气科学学院

20172-20157月,现代气候学基础,本科生,南京大学大气科学学院

20192-20197月,气候变化,研究生,复旦大学大气与海洋科学系

20199-20201月,现代气候学基础,本科生,复旦大学大气与海洋科学系

  

学术兼职

20141月—至今,中国气象学会冰冻圈与极地气象委员会,委员

20141月—至今,Advances in Atmospheric Sciences期刊,Editor

20171月—至今,Journal of Meteorological Research期刊,Editor

  

获奖情况

2011年,双创计划,江苏省双创人才,江苏省

2012年,双创计划,江苏省创新团队,江苏省

2016年,333工程,333工程第二层次,江苏省

  

发表论文

1Wu, Q.*, Y. Yao, S. Liu, D. Cao, L. Cheng, H. Hu, L. Sun, Y. Yao, Z. Yang, X. Gao and S. R. Schroeder, 2018: Tropical Indian Ocean Warming Contributions to China Winter Climate Trends Since 1960. Climate Dynamics, 51:29652987.

2Cao, D., Q. Wu*, A. Hu, Y. Yao, S. Liu, S. R. Schroeder, and F. Yang2018Linear and Nonlinear Winter Atmospheric Responses to Extreme Phases of Low Frequency Pacific Sea Surface Temperature Variability. Climate Dynamics, 50, https://doi.org/10.1007/s00382-018-4127-1.

3Gu, S. Y. Zhang*, Q. Wu and X. Yang, 2018: The linkage between Arctic sea ice and midlatitude weather: in the perspective of energy. Journal of Geophysical Research, 16043685,DOI: 10.1029/2018JD028743.

4Yao, Y.*, H. Lin and Q. Wu, 2018: Linkage between Interannual Variation of the East Asian Intraseasonal Oscillation and Mei-Yu Onset. Journal of Climate. DOI: 10.1175/JCLI-D-17-0873.1

5,荀爱萍,吴其冈*,胡雅君, 姚永红,2018: 观测分析非洲南部地区土壤湿度异常对南半球大气环流的显著影响. 大气科学, DOI: 10.3878/j.issn.1006-9895.1806.18116.

6Liu, S., Q. Wu*, X. Ren, Y. Yao, S. R. Schroeder and H. Hu, 2017: Modeled Northern Hemisphere autumn and winter climate responses to realistic Tibet Plateau and Mongolia snow anomalies. Journal of Climate, 30, 9435-9454.

7Wu, Q.*, L. Cheng, D. Chan, Y. Yao, H. Hu and Y. Yao, 2016: Suppressed mid-latitude summer atmospheric warming by Arctic sea ice loss during 1979-2012. Geophysical Research Letters. 43, 2792–2800.

8Hu, C., S. Yang*, Q. Wu, Z. Li, J. Chen, K. Deng, T. Zhang, and C. Zhang, 2016:Shifting El Niño inhibits summer Arctic warming and Arctic sea-ice melting over the Canada Basin.Nature. Communications. 7, 11721. doi: 10.1038/ncomms11721.

9Hu, C., Q. Wu*, S. Yang, et al. 2016:A linkage observed between austral autumn Antarctic Oscillation and preceding SST anomalies.Journal of Climate, 29, 2109-2122.

10Chan, D., Q. Wu*, G. Jiang and X. Dai, 2016: Projected shifts in Koppen climate zones over China and their temporal evolution in CMIP5 multi-model simulations. Advances in Atmospheric Sciences, 33, 1-11.

11Hu, C., S. Yang*, Q. Wu, 2016: Reinspecting two types of El Niño: a new pair of Niño indices for improving real-time ENSO monitoring. Climate Dynamics, 47, 4031-4049.

12Chan, D. and Q. Wu*, 2015:Significant anthropogenic-induced changes of climate classes since 1950. Scientific Reports.5, 13487; doi: 10.1038/srep13487.

13Chan D. and Q. Wu*, 2015: Attributing observed SST trends and sub-continental land warming to anthropogenic forcing during 1979-2005. Journal of Climate, 29, 3152-3170.

14Yao, Y., H. Lin*, and Q. Wu, 2015: Subseasonal variability of precipitation in China during boreal winter. Journal of Climate, 28, 6548-6559.

15Hu, C., S. Yang*, and Q. Wu, 2015: An optimal index for measuring the effect of East Asian winter monsoon on China winter temperature. Climate Dynamics, 45, 2571-2589.

16Wu, Q.*, J. Zhang, X. Zhang, and W., Tao 2014: Interannual variability and long-term changes of atmospheric circulation over the Chukchi-Beaufort Seas. Journal of Climate, 27, 4871-4889.

17Hu, H.*, J. He, Q. Wu, and Y. Zhang, 2011: The Indian Ocean’s asymmetric effect on the coupling of the Northwest Pacific SST and anticyclone anomalies during its spring-summer transition after El Niño. Journal of Oceanography, 67, 315-321DOI 10.1007/s10872-011-0039-y.

18Wu, Q.*, H. Hu and L. Zhang, 2011: Observed influences of autumn-early winter Eurasian snow cover anomalies on the hemispheric PNA-like variability in winter. Journal of Climate. 24 2017-2023.

19Wu, Q.*, and X. Zhang, 2011: Observed evidence of an impact of the Antarctic sea ice dipole on the Antarctic Oscillation.Journal of Climate. 24.4508-4518.

20Wu, Q.*, 2010: Associations of diurnal temperature range change with the leading climate variability modes during the Northern Hemisphere wintertime and their implication on the detection of regional climate trends, Journal of Geophysical Research, 115, D19101,doi:10.1029/2010JD014026.

21Wu, Q.*, and X. Zhang, 2010: Observed forcing feedback processes between Northern Hemisphere atmospheric circulation and Arctic sea ice coverage, Journal of Geophysical Research, 115, D14119, doi:10.1029/2009JD013574.

22Wu, Q.*, 2010: Forcing of tropical SST anomalies by wintertime AO-like variability. Journal of Climate. 23, 2465-2472.

23Rosenzweig C.*, D. J. Karoly, M. Vicarelli, P. Neofotis, Q. Wu, G. Casassa, A. Menzel, T. L. Root, N. Estrella, B. Seguin, P. Tryjanowski, C. Liu, S. Rawlins, and A. Imeson, 2008: Attributing physical and biological impacts to anthropogenic climate change. Nature453, 353-358.

24Wu, Q.*, 2008: Observed impact of subtropical-midlatitude South Atlantic SST anomalies on the atmospheric circulation, Geophysical Research Letters, 35, L22803, doi:10.1029/2008GL035488.

25Wu, Q.*, D. J. Karoly, G. R. North, 2008: Role of water vapor feedback on the amplitude of season cycle in the global mean surface air temperature, Geophysical Research Letters, 35, L08711. doi:10.1029/2008GL033454.

26Wu, Q.*, and D. J. Karoly, 2007: Implications of changes in the atmospheric circulation onthe detection of regional surface air temperature trends. Geophysical Research Letters, 34, L08703,doi:10.1029/2006GL028502.

27Karoly D. J.*, and Q. Wu, 2005: Detection of regional surface temperature trends. Journal of Climate, 18, 4337-4343.

28Wu, Q.*, and D. M. Straus, 2004: AO, COWL, and observed climate trends.Journal of Climate, 17, 2139–2156.

29Wu, Q.*, and D. M. Straus, 2004: On the existence of hemispheric-wide climate variations. Journal of Geophysical Research, 109, D06118, doi:10.1029/2003JD004230.

30Wu, Q.*, and G. R. North, 2003: Statistical of calendar month averages of surface temperature: A possible relationship to climate sensitivity.Journal of Geophysical Research, 108, 4071, doi:10.1029/2002JD002218.

31Wu, Q.*, and D. M. Straus, 2003: Multiple planetary flow regimes and the eddy forcings in the Northern Hemisphere wintertime variability. Geophysical Research Letters,30, 1861. 10.1029/2003GL017435.

32Wu, Q.*, and G. R. North, 2002: Climate sensitivity and thermal inertia.Geophysical Research Letters, 29 (15), 1707, doi:10.1029/2002GL014864.

33North, G. R.*, and Q. Wu, 2001: Detecting climate signals using space-time EOFs.Journal of Climate, 14, 1839-1863.

34Kim, K.-Y.*, and Q. Wu, 2000: Optimal detection using cyclostationary EOFs. Journal of Climate, 13, 938-950.

35Kim, K.-Y.*, and Q. Wu, 1999: A comparison study of EOF techniques: analysis of nonstationary data withperiodicstatistics.Journal of Climate, 12, 185-199.

  

其它情况

本人长期招收博士后,博士和硕士研究生,欢迎对气候变化感兴趣者邮件联系


#以上信息由本人提供,更新时间:2018/03/21